This document discusses the possibility of utilizing weather information with LightEye. It provides examples of major weather data providers from different countries. It also lists potential applications of weather data in various industries. Additionally, it outlines responses from MetOffice and AccuWeather stating that more weather observations could help improve forecast accuracy. Regional weather networks from around the world are also listed that provide data from their station networks. Examples are given of how weather data is already being used in services and research.
The document introduces the FIDES-P1 LED lighting product. It uses HVUD (H bridge V Up-Down) technology and I-V control technology to directly drive LEDs from an AC input without using a transformer or electrolytic capacitor. The I-V control technology regulates the LED current to maintain consistent brightness. The product has bypass circuits to allow normal operation if an LED fails. It also has various power control and efficiency features.
This document discusses the possibility of utilizing weather information with LightEye. It provides examples of major weather data providers from different countries. It also lists potential applications of weather data in various industries. Additionally, it outlines responses from MetOffice and AccuWeather stating that more weather observations could help improve forecast accuracy. Regional weather networks from around the world are also listed that provide data from their station networks. Examples are given of how weather data is already being used in services and research.
The document introduces the FIDES-P1 LED lighting product. It uses HVUD (H bridge V Up-Down) technology and I-V control technology to directly drive LEDs from an AC input without using a transformer or electrolytic capacitor. The I-V control technology regulates the LED current to maintain consistent brightness. The product has bypass circuits to allow normal operation if an LED fails. It also has various power control and efficiency features.
This document describes an LED control microcontroller that provides 3 LED PWM outputs at 8 watts each, includes temperature, illuminance, and general purpose sensors, detects battery level, supports PLC communication standards, has a UART interface, calendar/timer functions, 8 GPIOs, SPI interface, can turn on/off an SMPS for zero power operation, and has an internal LDO for easy manual color control.
This document describes an LED control microcontroller that provides 3 LED PWM outputs at 8 watts each, includes temperature, illuminance, and general purpose sensors, detects battery level, supports PLC communication standards, has a UART interface, calendar/timer functions, 8 GPIOs, SPI interface, can turn on/off an SMPS for zero power operation, and has an internal LDO for easy manual color control.
양아치조명디자인 하는 놈때문에 사기당했던 자료들...
디자인 하는 양아치가 반도체 이론을 만든다고?
여러분 공부들 하시고 사기에 당하지 마시길...
사기를 본격적으로 치기시작한 초기버전입니다. 남에 문서를 받아서 앞자만 바꾸고 지가 만들어서 엘지이노텍에 프리젠 한거라나! 그럼 메일로 보내준 내 원본은 어찌 감추나? 글구 양아치 새끼 뭐 능력이 안되니 자료도 제데로 추려서 만들지도 못하고 앞문자만 바'꿔요...
This document describes an LED control microcontroller that has the following key features: it can control 3 LEDs using PWM output, contains temperature, illuminance, and general purpose sensors, detects battery level, supports PLC communication standards, includes a UART interface, calendar/timer functions, 8 GPIO pins, SPI interface, can turn on/off an SMPS for zero power operation, and has an internal LDO regulator. It also allows for easy manual color control of the LEDs.
This document describes an LED control microcontroller chip that has the following key features: it can control 3 LEDs using PWM output, contains temperature, illuminance, and general purpose sensors, detects battery level, supports PLC communication standards, includes UART and SPI interfaces, provides calendar/timer functions, has 8 GPIO pins, and can turn an SMPS power supply on and off using an internal LDO regulator.